Comparison of Mn, Cr and Mo alloyed sintered steels prepared from elemental powders

Author： Danninger H. Pöttschacher R. Bradac S. Šalak A. Seyrkammer J.

ISSN： 1743-2901

Source： Powder Metallurgy, Vol.48, Iss.1, 2005-03, pp. : 23-32

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Abstract

Molybdenum, chromium and manganese offer considerable potential as alloy elements in sintered steels, especially for PM precision parts used, for example, in automotive engines and transmissions. This holds in particular for recycling and health/safety aspects. Within this work, the influence of these elements as admixed alloy metals on the sintering behaviour and the properties of structural PM steels is discussed. The considerable differences in the homogenisation behaviour during sintering are described as well as the respective advantages and drawbacks. It is shown that for high density PM steels, Cr and Mo are better suited while for conventionally produced mass products Mn is attractive, its affinity to oxygen being less of a problem today than commonly assumed and since Mn addition promotes swelling, this element might be a replacement for Cu. For Mn, admixing is the more attractive route, for Cr, in contrast, prealloying offers advantages, while for Mo both alloying techniques are feasible.